Circuit interrupter



Aug. 11, 1953 A. P. STROM ETAL CIRCUIT INTERRUPTER 4 Sheets-Sheet;- l

Filed March 30, 1950 F ig2`.

. VI r|3 ina@ I6 `Insulation I5\, C@ C@ @l www om mmw 0mm TIB- E NS N E.. R VPE O NS T. lr T e0 A wm# O Aw Aug. 11, 1953 A. P. sTRoM ETAL 2,648,744

CIRCUIT INTERRUPTER Filed March 30, 1950 4 Sheets-Sheet 2 Fig.5.

rl ,4l @D @D r f r f, @D @D @GQ @D C@ @D :z 3aFr 8 WITNESSES: INVENTORS Alber? P. Strom and Thomas E. Browne Jr.

ATTORNE Aug. 11, 1953 A. P. sTRoM Erm.

CIRCUIT INTERRUFTER 4 Sheets-Sheet 3 Filed March 50, 1950 INVENTORS Albert R Strom and Thomas E. Browne,Jr.

6 6 -I- l 4 4 l-I- H WITNESSES: G25-M i. idw?- TTORNEY 2 Aug. 1l, 1953 A. ns1-ROM Erm. 2,648,744

CIRCUIT INTERRUPTER WITNESSES: INVENTORS Alberi P. Strom ond BYThomas E. Browne,Jr.

TTORNEY Patented Aug. 11, 1953 CIRCUIT lNTER-RUPTER Albert P. vStrom and Thomas E. Browne, Jr.,

Pittsburgh, Pa.,'assignors to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Application March 30, 1950, Serial No. 152,862

19 Claims.

Our invention relates to circuit interrupters in general, and more particularly, to arc extinguishing structures therefor.

We have found, as a result of tests on selfgenerated gas blast circuit interrupters, that there are very marked differences in the characteristics of so-called narrow slot type devices and splitter type devices. The narrowslot interrupter is excellent at low currents, but its interrupting ability at higher currents improves only slightly or not at all. The splitter type of interrupting device, on the other hand, can not interrupt low currents except at very low v oltages, but when the current passes a definite value,

the voltage that can be interrupted rises very rapidly with increasing current.

It is an object of our invention to provide an arc extinguishing interrupting structure which Will combine the good low current performance of the narrow slot type of arc extinguisher with the excellent high current interrupting characteristics of the splitter type of breaker.

Another object is to provide an improved circuit interrupter of the self-generated gas blast type in which the arc is drawn adjacent a side Wall of a gas evolving insulating material in which a plurality of closely spaced transverse slots or grooves are provided in the side Wall, transversely to the direction of arc establishment to break up the continuity of the side wall surface, to thereby eliminate the possibility of fiashover across the surface following a current zero.

Another object is to provide an improved circuit interrupter in which the arc is drawn adjacent to the edges of a plurality of closely spaced insulating gas evolving plates, and to provide a plurality of transverse slots, cuts or grooves in the plates to thereby provide discontinuous surfaces over the plates to increase thereby the value of voltage which may be interrupted by such a type of device.

Still a further object is to provide an improved circuit interrupter of the foregoing type in which biasing means are provided to 'bias the gas evolving strips or side Walls toward each other :and against the established arc.

Further objects and advantages will readily become apparent upon reading the following specification taken in conjunction with the drawings in which:

Figure 1 is a cross-sectional view of an interrupter embodying our invention, taken on the line I-I of Fig. 2;

Fig. 2 is a vertical sectional View of our improved arc extinguishing device., taken on the line (Cl. 20D- 149) II--II of Fig. 1, the contacts being shown in the partially open circuit position;

Fig. 3 illustrates a modified form of our arc extinguisher, the view being taken in cross-section along the line III-III o f Fig. 4;

Fig, 4 is a side vertical sectional view of the interrupter of Fig. 3 taken along the line IV-IV of Fig. 3, the contacts being shown in the partially open circuit position;

Fig. 5 is a side sectional View of still anotherembodiment of our invention taken substantially on the line V-V of Fig. 6, the contacts being shown in the partially open circuit position;

Fig. 6 is a vertical sectional view taken along the line VT-V'I of Fig. 5;

Fig. 7 is a fragmentary sectional view taken along the line VII-VII of Fig. v6

Fig. 8 is a vertical sectional view through a modified type of interrupter similar to the type set forth in Figs. 1 and 2;

Fig. 9 is a fragmentary perspective view of one of the side walls of the interrupter of Fig. 8;

Fig. 10 is a vertical sectional view through a modified type of interrupter similar tov the type set forth in Figs. 3 and 4;

Fig. 11 is a vertical sectional view through a modified type of interrupter similar to that set forth in Figs. 5-7; and

Fig. 12 is a fragmentary perspective View of one of the side walls of the interrupter shown in Fig. 11.

An analysis of the behavior of slot type of interrupters, such as that set forth in United States Patent 2,109,216, issued February 22, 1936, to John W. Huffstutter, indicates that at low currents the arc moves readily along the slot and does not heat any part of the adjacent gas generating material excessively. When current Zero arrives, the gaseous part of the arc path is well deionized, and the surface of solid material is also a good dielectric, so that high voltage can be interrupted. However, at high currents, the arc quickly moves to the nal position, and while sufficient gas is generated to quickly deionize the gaseous arc path near a current zero, the continuous solid material bounding surface becomes hot and loses much of its dielectric strength. The gas layer adjacent the solid surface is `also heated to the surface temperature so that it also has a lowered dielectric strength. Hence, as current increases to high values, the voltage that can be interrupted usually falls.

The cross-blast type of interrupter, on the other hand, does not generate suicient gas at low currents to cause rapid deionization of the arc core as current zero approaches, so the arc restrikes through the gas core. However, at high currents where the gas core is well deionized, the transverse splitters offer a discontinuous path of solid material surface, so that even though the splitters themselves are hot and therefore have relatively low dielectric strength, the interspaces are deionized and offer high dielectric strength.

We propose to provide similar conditions of discontinuous solid boundary surface in the narrow slot type of breaker, by transversely slotting or grooving the gas generating plates forming the narrow slot walls. Either ia single slot may be used, or multiple slots formed by a 'series of closely spaced gas generating plates having i transverse slots or grooves provided therein. Thus, the arc can .play between the narrow slot walls as in the conventional narrow slot breaker, but unlike it, the solid `surface opposite the arc path is 4broken up by the transverse slots through the bounding walls or the grooves thereon. Consequently, the low surface breakdown path along the surface joining the electrodes is replaced by a deeply transversely slotted surface which has lrelatively much higher dielectric strength after the surface has been exposed to a high current arc.

The advantages of such a construction are that low current arc may enter one of the multiple `slots and be very close to gas generating walls and hence be quickly deionized. The use of multiple slots permits close spacing of adjacent slot walls for rapid extinction of low currents which enter therebetween, and at the same time, since there are several slots in parallel, the Y discharge area is sufficient to maintain low pressures at high current.

.Another advantage is that heavy current arcs cannot enter the longitudinal slots, but hang at the slot entrance until near current zero when L the arc space can be deionized by the continuing gas iiow into the slots, or they can move up between a pair of plates and there be extinguished. Consequently, restriking along the surface where the arc originally burned is not likely because of the transverse slots. A few embodiments of our invention illustrating more clearly the foregoing advantages will now be described.

Referring to the interrupter as set forth in Figs. l and 2, it will be vnoticed that we have provided a Agas-evolving narrow slot type of arc extinguishing structure generally designated by the reference numeral I. The extinguisher -I generally comprises a grooved base plate 2 formed of insulating material having a pair of grooved outer side walls, 3, 4 and a pair of insulating end walls 5, 6. A stationary contact 1 is provided having an up-standing arc horn 8.

Cooperating -with the stationary contact 1 `is a blade-shaped movable contact 9 which, during the opening operation, establishes an arc I0. Disposed on the inner wall of end plate 6 is a second arc horn I I.

4 established arc III. The grooves 2u, 3a and 4a have the same function. Preferably the middle plate I3 does not extend as far down as the plates I2, I4 to thereby accommodate lateral separating movement of the movable bladeshaped contact 9 away `from the stationary contact 1. The other two side walls I2, I4, preferably extend down to a point immediately adjacent the movable contact 9 so that the established arc I0 will be drawn immediately adjacent thereto.

A plurality of bolts I6 and insulating washers I1 may be employed to affix the several plates in position and to space them the desired distance apart.

The operation of the device will be apparent from the foregoing description. Upon rightward opening motion of the movable contact 9 away from the contact 1 an arc I8 is drawn therebetween. During the interruption of small current arcs, the varc Il] may move in the spaces between the plates I2, I3 and I 4 to the position I8 where it extends between the upper ends of the arc horns 8, II. The movement of the low current arc I8 over the surfaces of the plates I2, I'3 and I4 causes the gases within the arc core to be deionized, and at a current zero extinction soon follows. It will be noticed that the arc I8-` may rise up either between the side walls I2 I3 Vor between the slotted side walls I3, Hi.

During the interruption of heavy current arcs. the arc tends to remain near the lower end of the extinguisher I below the center plate I3. The heavy current arc naturally evolves more gas than does a small current arc, and the evolved gas passing turbulently through the are stream brings about extinction at a current zero. It will be noticed that lthe slots or cuts I5 extending transversely of the direction of arc establishment, break up the side wall surfaces to prevent reignition following a current zero.

The embodiment of our invention shown in Figs. '3 and 4 will now be explained. A housing 2'0 is provided composed of a grooved base plate 2, grooved side walls 3, A and end walls 5, 6. As before, there is provided a stationary contact I with its immediately adjacent arc horn 8 and a rod-shaped movable contact S with the immediately adjacent arc horn I I. Again we groove the base plate 2 by making the cuts or slots 2a therein. The side walls 3, It again have grooves 3al and 4a provided therein. This results in a discontinuous surface extending from the stationary Contact 1 to the movable contact 9. Also in this embodiment we preferably provide a blast tube 22 which may lead from any suitable source of compressed gas, such as compressed air. The entrance of the compressed air facilitates upward movement of the established arc I8 against the edges of a plurality of plates 23-29 which we provide in this embodiment of our invention.

In certain instances, it may be desirable to provide a pair of magnetic blowout coils :t0-3l which act cumulatively and are preferably in series with the electrical circuit controlled by the interrupter. The magnetic field set up by the blow-out coils 30, 3l acts to move the established arc I0 upwardly against the edges of the gasevolving side plates 23-29- The gas blast may be employed alone or in conjunction with the magnetic field, or alternatively the magnetic field may be utilized alone. Again, stay bolts I6 and washers I1 are provided to maintain the plates 23-29 in proper position and to space them ih@ desired distance apart.

'Ih'e operation of ,'this embodiment' ofi our inf. ventiontwilljnow Uexplained. Uppn rightward.

separatingcmovement of ^the movable contact" 9 away, fromv the stationary contactv 1 an arc I0 Willhe drawnth'erebetween. HeavyI currentiarc interruption will occurV at,the lower end of the' extinguisher: and :immediately,adjacenttle'lower ends "of the plates'23-29l. Itwill" b'eiobserved that atta currentfzero Awhen the"turbulentigasow tlirough'th-earc*core-deionizes Ythe 'arc' path".

Durir'rg'the `interruption-of l"small current'arcs,` the'arc'mayrpass upwardly between af pair of "the" plates 23-29 to a position I8'ir/here*extinction'` occursat af current*zerobecausefofthe cool surfa'cesencountered'by thefmoving-arcf ItLWil-l' be noticed' thatAl` the cu-ts or slotsv I 5lprovidedin all of th'e plates 23-29= leads to "discontinuous sur faces` extending aiongthe arc extinguisher in the-"direction oi"- farc establishment.' Further; the grooves-2a; Strand' A:4a 'providedl inV the basel-plate 2 land-*sideewalls 3,'- 4`result in discontinuous sur-- faces:extending'alongl the-base-plate 2'- and side` Wa-'lls-'3`," #between the-contactil;` 9.z Asearesu'lt,y

considerable voltage may be withstood followingj extinction otitheearcwithout there -being a possihiflityifoffbreakdown oocurringwith subsequent reignitionoffthe arc.l

The'embodiment *of 1 our `invention' disclosed vin Figs: 5 to 7Tis"fsorne\il'1at 'similarA` to -thathereto#- fdref discussed-ifi Iconnection Nwithvv -Figsz 1 and"2. Howe-ver; itrwll'befnotd thatth'e outert sidet plates'f 34; 35." havef'recesses -36 provided- 2therein.` Tlief recessesa 361- provid seatsfor compression 1- springs 31 Whichrten'clitov bias 'the#strips-'-l 38 in Wardlyzagainsteach-other. The `arcv I -is establisliedf between;'pairs ofblocksf 39.; eachfipair con sis'tir'rgnof.` 'a blockrll'secured tothe 'lower ends of tliestrip'sf 38? Thus; the opposing.l blocks140; form'ed of?- af gaseevolving insula'tin-g:` materiah. biased'iinwardzlyi. against each other-'by` the comv pression'springs 31 tend: to'squeeze 'orfcontract the establishedarc-J I Daftherebyfincreasing :the evolu= tion of gasrom thestrips `38:12 Asin Rigs; l and 2',`. Werfprovideia; :central .separatingssplitter `'4I which" is also composed of gas-evolving material..

Riga' shows.f-:how" the pairs:4 ofv blocks.t 39 may haveitheirf edges. -chamferedto permit easyY err-1y trance pf .the movable:contactBiforcing .the blocks -:y dof'apartduringrfthe closing operation. Durings the:opening-roperation', .the `removal, fof the mov; ablezcontact Spermitsth'e :compression springs-311' tolforceethe strips =38 and .blocks 4IIIlmtoWard each"`Vv otherg contracting" the are; I 0 Ean'dincreasing'the f evolution :of .gas-formed:` Iiightcurrent arcsfm'ay passupjbetween `the. splitter 4 I andeithenoflthef side plates I2, I4 tozfafapositionrl. The-move:- ment of1such-light`current arcs rover'th'e cool surfaces"results1 in' extinction .at an earlyr current zero.: Heavyfcurrent arcs. IB will; remainadjacent:

thezlowerrendfof the extin'guishenbelow theloweri. edgepotthefseparating splitter 4I-'Wherefthe arc: I 0-:is.=subjected tov ythexturbulent -in'-flowing-#gasesf resulting;` from the "self-generating action:Y Exetinction occurs-iat .erA current zero because --of :the abundant-gas' evolutiont Thiefv foregoing: description of.' three"y embed-ii.` ments ofsfourfinventionislrowsr1how-wefhavefpro= f vided an improved circuitfiirtrrupterlotf`the-fselii- 6?; generating gas ^type -inh which; by'the 'transverse slots" I" andVr grooves, 2a;` 3a," and- 4a; weihavem b'rolrenuprthe* continuous surfaces to^ minimize the possibility vof *voltage"breakdown-'and reigni- 5 tion followingarc extinction:

Fig.v 8'shows another embodimentfof 'our invenf tion in which' theside walls A43, 44 'and'lare sim'- ilar'to the side Wa1ls'I2', `lfarntl'I4^`heretofore discussed Vin connectionwith' Figs; 1. and 2," butiinstead "of Y`l'1`aving"slt" tsf. I 5 formed therein; grooves 46 "are, employedj ras more clearlyjshown'in. Fig.' 9i The grooves 48"arepreferablystaggered; as shown inFig., 9,'.but they mightbedirectlyopposite each' other on b'otbsides of `th`eiplate.. However, by..

'7 having. aistaggered grooved construction, as shown in Fig. 9,' astronger Plate results which is not .as. readilyfsusceptibleto breakage. The other cornponentfparts, offthe ,interrupter shown in Fig; 8' are tlien Ythesame as Aheretofore discussedin connection with' Figs.. 1"and 2;` it'inerely being notedf thatfvinstead '.of a slottedconstruction rbeingemployed; aswasthe .case .in Figs.- 1 and 2fa `grooved construction is here emp1oyed.`

The-arc `is...dravvn.in..the same. manner as .in

" Figs. 1 and 2; andthegrooves 46^provide ,surface discontinuities. to, increase. the.- dielectric' strength across the surface atazcurrent zero.

Fig. l0 .is a modicatonwhich is .inallfrespects similar .to .that .shownin Figs. .3 land 4.'h'eretofore.

` discussed'. except insteadl ofeemployingY slots. I5 in .the.pl:a.tes.23,:29, herergrooves 46 fare employed.' in the plates 13T-53. Again the series blow-out coils-.39, 3l maybe employedeithergalone or in combination with aablast .tube.'22. The surface.. grooves 46- on theplatesA'Ie-53 may .take .tl/reform. as indicated in Fig. 9,.. Againtheoperation isthe same as .was describedheretofore ilrconnection WithFigs 3 .and .4, with the exception thatsur.- face groovesAB ..are employedjinstead r,of .slots` I 5' to .bringab'out .theVv surface discontinuities.

Figs. 1l and,.12.. collectively show a..modied.- form of. theinvention .which...is all .respects similar .to that .heretoforediscussed in .connection With..Fgs...5-7, with .the exceptionthat linsteadof strips 38 ,beingemployedin .conjunction .with side. Wal/lsv I2, .I4,. here, yafgrooved .construction .is-em ployed.. In.other Words, thecside.wallslfd,Y 551 have .thegrooves Iiormedorttheirinneropposed. walls, as shown .in Fig., y12, the grooves'notonly.

extending.. vertically along.. the vertical portions but also'v along. the. blocks.. 56.1 Compression. springs 31 are employedstobias the-.sidewalls v54,. 55;,Which areeexible; inwardlya It-.willv.f.be observed that. Wethave incorporated..

our. device..in^an..inte1rrupter.'either.utilizing an eXternalgas.;flW orone` employingmagnetc blow-out coils, to.. provide.- a magnetici. blc'nv.oui'.y field... Also it :wilLbe'observedthat Werhaveprcvided.- biasing., means.. to.. bias the. strips. 38A and.

60.' blccksfllffinwardlyjo provide :an .automaticcon-f trolledi pressi-ire..v responsive extinguishing device.. which accommodatesstheinterruption. of Jlov/and highcurrents Although we..ha.ve showniand.. described spe-- cie structures, it isf-.to .hemlearly .understood that. theesame :were merely.. for the.. purpose of illustration.,l .and ithat .changes .and modiiications. may; readily .bemade .byythosesk'illed in the art witi out..departing.from the spiritand 'scope ojth'e. appended "claims W. claimasr'our' invention-z 1t A circuit interrupterincludirfgfi-asribstan tia'llyN enclosedi arc chamber '-"h'avingf afnormally openventopeningf mea-ns for estab1ishing:an are within the arc chamber, a pluralityiof spacedfgass evolving insulating strips disposed laterally of the arc adjacent the vent opening so that the arc is drawn transversely thereof immediately7 adjacent thereto, and the evolved gas passing out the opening and extinguishing the are.

2. A circuit interrupter including a substantially enclosed arc chamber having a normally open vent opening, means for establishing an are within the arc chamber, a plurality of spaced gasevolving insulating strips disposed laterally of the arc adjacent the vent opening so that the arc is drawn transversely thereof immediately acent thereto, the evolved gas passing out the vent opening and extinguishing the arc, and means biasing the strips against the arc.

3. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a pair of insulating side walls spaced closely together adjacent the vent opening between which the arc is drawn, and a plurality o relatively deep closely spaced transverse slots in the walls disposed transversely of the direction ci arc drawal.

4. A circuit interrupter including a substan tially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced gas-evolving insulating walls disposed parallel to the direction of are drawal and adjacent the vent opening, and a plurality of relatively deep slots formed in each wall transversely to the direction of arc drawal.

5. A circuit interrupter including a substantially enclosed arc chamber having a vent open ing, means for establishing an arc within the arc chamber, a plurality of closely-spaced insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, a plurality of slots formed in each wall transversely to the direction of arc drawal, and means for sending a blast of gas out the vent opening and against the arc to force it against the edges of the walls.

6. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, a plurality of slots formed in each wall transversely to the direction of arc dravval, and means providing a magnetic field to move the arc between the wails and toward the vent opening.

7. A circuit interrupter including a substantially enclosed arc chamber having a Vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced gas-evolving insulating Walls disposed parallel to the direction of arc drawal and adjacent the vent opening, a plurality of slots formed in each wall transversely to the direction of arc drawal, and means for biasing two of the Walls against each other to more intimately engage the arc.

8. A circuit interrupter including a substan- I tially enclosed arc chamber having a vent opening, means for establishing an are within the arc chamber, a substantially flat side Wall disposed laterally of the arc adjacent the vent opening so that the arc is drawn immediately adjacent thereto, the side wall having a `plurality of transverse surface discontinuities transversely of which the arc is drawn, the side vvall having a portion thereof formed of a gas-evolving material, and the evolved gas passing out the vent opening and extinguishng the arc.

9. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc Within the arc chamber, a pair of insulating flat substantially s parallel side walls spaced closely together adjacent the vent opening between which the arc is drawn, the side walls being in part formed of a gas-evolving material, and a plurality of closely spaced surface irregularities provided in the walls disposed transversely of the direction of arc drawal.

10. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced gas-evolving flat insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, and a plurality of surface discontinuities formed in each wall transversely to the direction of arc dravval.

11. A cir-cuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an are Within the arc chamber, a plurality of closely-spaced gas-evolving at insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, a plurality of surface discontinuities formed in each wall transversely to the direction of are dravval, and means for sending a blast of gas against the arc to force it against the edges of the Walls.

l2. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced gas-evolving flat insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, a plurality of surface discontinuities formed in each wall transversely to the direction of arc drawal, and means .providing a magnetic eld to move the arc between the walls.

13. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced gas-evolving flat insulating Walls disposed parallel to the direction of arc dravval and adjacent the vent opening, a plurality of surface discontinuities formed in each wall transversely to the direction of arc drawal, and means for biasing two of the Walls against each other to more intimately engage the arc.

14. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc Within the arc chamber, a fiat side wall formed of a gas-evolving insulating material having a plurality of surface grooves disposed therein, the side wall being disposed adjacent the vent opening and laterally of the arc so that the arc is drawn transversely of the grooves immediately adjacent to the side wall, and the evolved gas passing out the vent opening and extinguish the arc.

l5. A circuit interrupter including a substantially enclosed arc -chamber having a vent opening, means for establishing an arc within the arc chamber, a pair of flat gas-evolving insulating side Walls spaced closely together adjacent the vent opening between which the arc is drawn, each of the side walls having a lplurality of closely-spaced surface grooves provided therein formed substantially transversely to the direction of arc drawal, and the evolved gas passing out the vent opening and extinguishing the arc drawn between the side Walls.

16. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc Within the arc chamber, a pair of ilat gas-evolving insulating side Walls spaced closely together adjacent the vent opening between which the arc is drawn, each of the side Walls having a plurality of closely-spaced surface grooves provided therein formed substantially transversely to the direction of arc drawal, the evolved gas passing out the vent opening and extinguishing the arc drawn between the side Walls, and means biasing the pair of side Walls toward each other and against the established arc.

17. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc within the arc chamber, a plurality of closely-spaced flat gasevolving insulating Walls disposed parallel to the direction of arc drawal and adjacent the vent opening, the insulating Walls having a plurality of grooves formed on the surfaces thereof substantially transversely to the direction of arc drawal, and the arc being drawn adjacent the side edges of the insulating Walls.

18. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc Within the arc chamber, a plurality of closely-spaced flat gasevolving insulating walls disposed parallel to the direction of arc drawal and adjacent the vent opening, the insulating Walls having a plurality of grooves formed on the surfaces thereof sub- 10 stantially transversely to the direction of arc drawal, the arc being drawn adjacent the side edges of the insulating walls, and means for sending a blast of gas out the vent opening and against the arc to force it against the `edges of the Walls.

19. A circuit interrupter including a substantially enclosed arc chamber having a vent opening, means for establishing an arc Within the arc chamber, a plurality of closely-spaced flat gasevolving insulating Walls disposed parallel to the direction of arc drawal and adjacent the vent opening, the insulating walls having a plurality of grooves formed on the surfaces thereof substantially transversely to the direction of arc drawal, the arc being drawn adjacent the side edges of the insulating Walls, and means providing a magnetic eld to move the arc between the Walls.

ALBERT P. STROM. THOMAS E. BROWNE, JR.

References cited in the nie of this patent UNITED STATES PATENTS 

